Illumination control device

FIELD: instrument making.

SUBSTANCE: with illumination pickups operated, proposed system is switched over into standby mode and standby lamp is switched on in the darkest areas or on all floors. When persons moves in controlled zone, full illumination is witched on in said zone (on floor), then timer generates additional lamp switch-off signal. If appropriate pickup does not confirm resetting to previous state, then said additional lamp stays in ON state till dispatcher interference.

EFFECT: electric power savings and control over premises.

1 dwg

 

The invention relates to equipment utility vehicles residential homes and industrial premises, and in particular to automatic control systems electrical quantities, in particular to a device for automatic regulation of electrical quantities, in particular to a device for automatic control of lighting devices for different purposes.

It is known device Intercom multifunctional" (patent No. 2195786, NM 11/02).

The device intercom multi-function refers to the equipment, municipal equipment of apartment houses and industrial premises, in particular intercom systems door phone. The technical result of the invention is that this device allows automatic control of lighting of non-residential premises and exterior lighting entrance - automatic shut-off lighting in the daytime and remote power on slew time residents in the dark. The device comprises a photo sensor, timer, trigger, schema comparison and modules lighting control, generator serial dialing apartments, the module mates with the dispatching system and diagnostics lifts, two-position sensor, the speech synthesizer.

The disadvantage of analog is no need to is icesta sensors for better lighting control.

The closest technical solution to the proposed device is "a Device lighting control" (prototype - see patent No. 2249925, NV 37/02).

The device lighting control contains the primary pulse PV with built-in photocell, the output pulse width information signal, the secondary Converter, comprising: a microcontroller; an amplifier-shaper; a switch; a display module; a power supply; an inductor; a control device and lighting controller switch the mains supply. In the secondary Converter is further introduced the real-time clock and backup power source and the primary pulse PV is connected to the secondary transducer two-wire line, the communication line is connected to the input of the amplifier-shaper and the first output inductance with one hand and with the output of the primary pulse Converter on the other. The output of the amplifier-shaper connected to the first input of the microcontroller, a second input connected to the switch. The third input of the microcontroller is connected to the output real-time clock, the first output of the microcontroller is connected to the first power supply input, the second output of the microcontroller is connected to the input of the display module, the input control module WWS is the incarnation connected with the third output of the microcontroller, the AC power is connected to the second power supply input, the first output of which is connected with the second output inductance. The second output of the power supply is connected to the input of the backup power source, the output of which is connected with the corresponding input power real-time clock, the output module lighting control is connected to parallel connected to the first inputs of the N controller hub AC power, the AC power is connected with the second parallel inputs N controller hub AC power, the parallel connected outputs through which the load of the illumination lamp is connected with the zero wire of the AC power supply.

The main disadvantage of the prototype is that the motion sensors do not solve the problem of adaptation to the need to conserve local (storey) lighting, if for example the time required to open the hard door, find the keys, something to write and talk through the door with the tenant and so it is necessary to set a longer time for all floors that would be uneconomical. In addition, it is not conducive to the safe shutdown lighting or part of it on the floor, if the attacker counts on that.

The aim of the invention is the saving of electrical energy and control of the premises.

In the drawing image is the wife of the block diagram of the device, which explains the essence of the invention. (1) light sensor external environment (UP), (2) light sensor internal environment (UP), (3) - solar batteries (SB), (4) controller, (5) - rechargeable battery (batteries), (6) - inverter (7) switch, (8) motion sensor and volume, (9) - lamp for additional lighting, (10) - lamp emergency lighting, (11) - power supply (SCS).

This goal is achieved by the fact that in the device, lighting control, comprising a solar battery, a light sensor of the external environment, the light sensor internal environment, controller, batteries, inverter, lamp emergency lighting of floors, characterized in that the lamp for additional lighting and motion sensor and volume, and the output of the solar batteries (SB) (3) is connected to the first input of the controller (4), the output of the external sensor (TO) (1) is connected with the second input of the controller (4), the output of the internal light sensor (TO) (2) is connected with the third input of the controller (4), input/output of the battery (batteries) (5) is connected with the first output /input of the controller (4) and the first input of the inverter (6), the second output controller connected with the second input of the inverter (6), the first inverter output (6) is connected on each floor to the first input of the standby lamp (10) and the input of the motion sensor and volume (8), the output of which is connected to the first input of the lamps is additional lighting (9), the second inputs of all of the lamps connected to the second output of the inverter (6), the third input of the inverter (6) is connected to the output of the switch (7), the first input connected to the first output of the controller (4)and the second input switch connected to the power supply (11).

The motion sensor and volume (CRS) allows to extinguish the light, if installed in advance the amount returned to its original state (no change), i.e. all gone from the floor (staircase). When the violation of the time interval, the motion sensor and volume (CRS), continuing to support such illumination, reports the deviation of the mode Manager, who decides either to maintain illumination mode (go work on the floor), or to establish a new threshold for the CRS (the long period of the new volume of the floor). In the latter case, the CRS after a time delay may set the threshold. This ensures optimal illumination mode with a minimum consumption of power and control over the premises where it is impossible to be without permission for more than a valid time.

The device lighting control works as follows. As actuation of the sensors light UP(1) UP(2) puts the system into standby mode and turns on duty lamp (10) in the most dark places or on all floors, When the person moves in the controlled area of the CRS (8) VK is uchet full coverage in this area (on the floor), then the timer the CRS (8) generates a signal for switching off the auxiliary lamp (9). But if the CRS (8) does not confirm the return volume to your previously installed, the additional lamp (9) lights until the intervention of the Manager, which resides on the remote. The Manager takes a decision either using floor camcorder, floor or negotiation item.

The device is a lighting control that contains the light sensor of the external environment, the light sensor internal environment, controller, batteries, inverter, lamp emergency lighting of floors, characterized in that the lamp for additional lighting and motion sensor and volume, and the output of the solar battery is connected to the first input of the controller, the output of the external sensor connected to the second input of the controller, the output of the internal light sensor is connected to the third input of the controller, the input/output of the battery is connected with the first output/input of the controller and the first inverter input, the second output controller connected with the second input of the inverter, the first inverter output connected on each floor to the first input of the standby lamp and the input of the motion sensor and volume, the output of which is connected to the first input of the lamp for additional lighting, the second inputs of all of the lamps are connected with the second output is om inverter, the third inverter input coupled to the output switch, the first input connected to the first output of the controller, and the second input switch connected to the mains supply.



 

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